Sphingidae Taxonomic Inventory

Creating a taxonomic e-science

Literature

Authorssort descendingYearTitle
T. Akiyama, Uchiyama, H., Yajima, S., Arikawa, K., Terai, Y.2022Parallel evolution of opsin visual pigments by tuning of spectral sensitivities during the transition from nocturnal to diurnal hawkmoths
A. Balkenius2004Color constancy in diurnal and nocturnal hawkmoths
A. Balkenius, Rosén, W., Kelber, A.2006The relative importance of olfaction and vision in a diurnal and a nocturnal hawkmoth
G. A. Bartholomew, Vleck, D., Vleck, C. M.1981Instantaneous measurements of oxygen consumption during pre-flight warm-up and post-flight cooling in sphingid and saturniid moth
J. Bing, Li, X., Haverkamp, A., Baldwin, I. T., Hansson, B. S., Knaden, M., Yon, F.2021Variation in Manduca sexta pollination-related floral traits and reproduction in a wild tobacco plant
D. J. Blackiston, Casey, E. S., Weiss, M. R.2008Retention of memory through metamorphosis: can a moth remember what it learned as a caterpillar?
D. J. Blackiston, Casey, E. S., Weiss, M. R.2008Retention of memory through metamorphosis: can a moth remember what it learned as a caterpillar?
A. Brasovs, Palaoro, A. V., Aprelev, P., Beard, C. E., Adler, P. H., Kornev, K. G.2023Haemolymph viscosity in hawkmoths and its implications for hovering flight
R. G. Busnel, Dumortier B.1959Vérification par des méthodes d'analyse acoustique des hypothèses sur l'origine du cri du Sphinx {IAcherontia atropos} (Linné)
T. M. Casey1976Activity patterns, body temperature and thermal ecology in two desert caterpillars (Lepidoptera: Sphingidae)
R. M. Cross, Owen D. F.1970Seasonal changes in energy content in tropical hawkmoths
D. E. Cutler, Bennett, R. R., Stevenson, R. D., White, R. H.1995Feeding behavior in the nocturnal moth {IManduca sexta} is mediated mainly by blue receptors, but where are they located in the retina?
A. Dahake, Jain, P., Vogt, C. C., Kandalaft, W., Stroock, A. D., Raguso, R. A.2022A signal-like role for floral humidity in a nocturnal pollination system
H. Daneck, Barth, M. B., Geck, M., Hundsdoerfer, A. K.2021Super cooling point phenotypes and cold resistance in Hyles euphorbiae hawk moths from different climate zones
M. C. Göpfert, Wasserthal L. T.1999Hearing with the mouthparts: behavioural responses and the structural basis of ultrasound perception in acherontiine hawkmoths
M. C. Göpfert, Wasserthal L. T.1999Auditory sensory cells in hawkmoths: identification, physiology and structure
H. Harbich1981Zur Biologie von Acherontia atropos (Lep.: Sphingidae) 4. Teil
F. M. Horodyski, Riddiford, L. M., Truman, J. W.1989Isolation and expression of the eclosion hormone gene from the tobacco hornworm, {IManduca sexta}
Fullard, J. H.1998The sensory coevolution of moths and bats. Pp. 279-326 in
T. Hügel, Goerlitz H. R.2019Species‐specific strategies increase unpredictability of escape flight in eared moths
N. M. Kalberer, Reisenman, C. E., Hildebrand, J. G.2010Male moths bearing transplanted female antennae express characteristically female behaviour and central neural activity
A. Kelber, Balkenius, A., Warrant, E. J.2003Colour vision in diurnal and nocturnal hawkmoths
A. Kelber, Balkenius, A., Warrant, E. J.2002Scotopic colour vision in nocturnal hawkmoths
S. Bisch-Knaden, Rafter, M. A., Knaden, M., Hansson, B. S.2022Unique neural coding of crucial versus irrelevant plant odors in a hawkmoth
M. F. Land, Gibson, G., Horwood, J., Zeil, J.1999Fundamental differences in the optical structure of the eyes of nocturnal and diurnal mosquitoes
T. Laussmann, Urspruch, P., Flocke, V., Windfelder, A. G., Aberle, H., Lunau, K., Flögel, U.2022Einblicke in die dynamischen Vorgänge in lebenden Puppen von Saturnia pavonia (Linnaeus, 1758) mittels nichtinvasiver Kernspinresonanztomographie (Lepidoptera: Saturniidae)
H. Liu, Ellington, C. P., Kawachi, K., VanDenBerg, C., Willmott, A. P.1998A computational fluid dynamic study of hawkmoth hovering
W. E. Miller2005Extrinsic effects on fecundity-maternal weight relations in capital-breeding Lepidoptera
W. E. Miller2005Reproductive bulk in capital-breeding Lepidoptera
R. Mummery, Valadon G.1976The carotenoids of a black variety of the larva of the moth, {IManduca sexta}
R. Mummery, Valadon, L. R. G., Rothschild, M.1976Carotenoids in the larvae and food plant of {IManduca sexta} and in the green and blue larval forms of {IHyalophora cecropia}
K. Nagamine, Hojoh, K., Nagata, S., Shintani, Y.2019Rearing Theretra oldenlandiae (Lepidoptera: Sphingidae) larvae on an artificial diet
J. B. Nardi, Magee-Adams S. M.1986Formation of scale spacing patterns in a moth wing
J. K. Nayar, Fraenkel G. S.1963The chemical basis of the host selection in the Catalpa Sphinx {ICeratomia catalpae} (Lepidoptera, Sphingidae)
D. M. O'Brien, Schrag, D. P., del Rio, C. M.2000Allocation to reproduction in a hawkmoth: a quantitative analysis using stable carbon isotopes
D. M. O'Brien, Suarez R. K.2001Fuel use in hawkmoth ({IAmphion floridensis}) flight muscle: enzyme activities and flux rates
R. A. Raguso, LeClere, A. R., Schlumpberger, R. O.2005Sensory flexibility in hawkmoth foraging behavior: lessons from {IManduca sexta} and other species
R. A. Raguso, Light, D. M., Pickersky, E.1996Electroantennogram responses of {IHyles lineata} (Sphingidae: Lepidoptera) to volatile compounds from {IClarkia breweri} (Onagraceae) and other moth-pollinated flowers
V. V. Remorov1985Growth and development of larvae of the vine hawkmoth ({IDeilephila elpenor} L.) and the oak silkmoth ({IAntheraea pernyi} Guer.) on hostplants other than their own
K. D. Roeder1972Acoustic and mechanical sensitivity of the distal lobe of the pilifer in choerocampine hawkmoths
K. D. Roeder, Treat A. E.1970An acoustic sense in some hawkmoths (Choerocampinae)
K. D. Roeder, Treat, A. E., Berg, J. S. Vande1970Distal lobe of the pilifer: an ultrasonic receptor in choerocampine hawkmoths
K. D. Roeder, Treat, A. E., Berg, J. S. Vande1968Auditory sense in certain sphingid moths
M. Rothschild1985British aposematic Lepidoptera. Pp. 9-62 in
S. P. Sane, Dieudonné, A., Willis, M. A., Daniel, T. L.2007Antennal mechanosensors mediate flight control in moths
R. N. Shulka, Parasher G. S.1978Haemolymph proteins of the developing moth, {IDaphnis nerii} Linn. (Lepidoptera: Sphingidae)
S. Sponberg, Dyhr, J. P., Hall, R. W., Daniel, T. L.2015Luminance-dependent visual processing enables moth flight in low light
R. D. Stevenson, Corbo, K., Baca, L. B., le Quang, D.1995Cage size and flight speed of the tobacco hawkmoth {IManduca sexta}
A. L. Stöckl, O'Carroll, D. C., Warrant, E. J.2017Higher-order neural processing tunes motion neurons to visual ecology in three species of hawkmoths
A. L. Stöckl, O'Carroll, D. C., Warrant, E. J.2016Neural summation in the hawkmoth visual system extends the limits of vision in dim light

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Scratchpads developed and conceived by (alphabetical): Ed Baker, Katherine Bouton Alice Heaton Dimitris Koureas, Laurence Livermore, Dave Roberts, Simon Rycroft, Ben Scott, Vince Smith